AC-Biased Shift Registers as Fabrication Process Benchmark Circuits and Flux Trapping Diagnostic Tool
Vasili K. Semenov, Yuri A. Polyakov, and Sergey K. Tolpygo

TL;DR
This paper presents a new ac-biased shift register circuit used as a benchmark for evaluating superconductor electronics fabrication, capable of detecting and localizing fabrication and flux trapping defects in large-scale superconducting circuits.
Contribution
It introduces a novel testing technique that assesses individual cell margins and defect types in large superconducting shift registers, enabling detailed fabrication diagnostics.
Findings
Successfully tested circuits with up to 809,000 Josephson junctions
Distinguished between fabrication-related and flux trapping defects
Identified flux trapping as a key source of soft defects influenced by magnetic environment
Abstract
We develop an ac-biased shift register introduced in our previous work (V.K. Semenov et al., IEEE Trans. Appl. Supercond., vol. 25, no. 3, 1301507, June 2015) into a benchmark circuit for evaluation of superconductor electronics fabrication technology. The developed testing technique allows for extracting margins of all individual cells in the shift register, which in turn makes it possible to estimate statistical distribution of Josephson junctions in the circuit. We applied this approach to successfully test registers having 8, 16, 36, and 202 thousand cells and, respectively, about 33000, 65000, 144000, and 809000 Josephson junctions. The circuits were fabricated at MIT Lincoln Laboratory, using a fully planarized process, 0.4 {\mu}m inductor linewidth, and 1.33x10^6 cm^-2 junction density. They are presently the largest operational superconducting SFQ circuits ever made. The…
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